CN216982031U - Wireless intelligent control system based on Internet of things - Google Patents

Abstract

The utility model provides a wireless intelligent control system based on the Internet of things, which comprises a gateway central control subsystem, an intelligent illumination subsystem, an energy monitoring management subsystem, an intelligent curtain subsystem, an intelligent security subsystem, an intelligent air-conditioning subsystem, a regional group control and intelligent scene control subsystem, a wireless transmission subsystem and a cloud server platform, wherein the cloud server platform is connected with the gateway central control subsystem, and the gateway central control subsystem is connected with the intelligent illumination subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air-conditioning subsystem and the regional group control and scene control subsystem through the wireless transmission subsystem Mobile terminal application program control, PC terminal application program control and WEB terminal application program control.

Description

Wireless intelligent control system based on Internet of things

[ technical field ] A

The utility model relates to the technical field of control of the Internet of things, in particular to a wireless intelligent control system based on the Internet of things.

[ background ] A method for producing a semiconductor device

The internet technology is the development basis of the internet of things, the core and the foundation of the internet of things are still the internet, and the internet is an extended and expanded network on the basis of the internet. The internet of things is fused with the internet through various wired and wireless networks, information of objects is accurately transmitted in real time or object equipment receives control instructions in real time to execute actions, and the internet of things is a ubiquitous network established on the internet. The rapid development of the internet has brought about unusual opportunities all over the world in the last two decades. Through the development history of the internet, the development of the internet has the characteristics of operation industrialization, application commercialization, global interconnection, broadband interconnection, multi-service comprehensive platform, intellectualization and the like. It is expected that the development and application of the internet of things will greatly exceed the internet, and the production, work, life and learning modes of people will be further changed.

With the continuous maturity of computer technology, network technology and wireless sensor technology, the internet of things control technology has been applied to various social fields such as smart cities, smart medicine, smart campuses, smart traffic, smart homes, smart power grids, smart logistics, smart industry and smart agriculture, but in the wireless control field, a set of control system cannot be shared among different manufacturers of the same type of equipment or different types of equipment to achieve interconnection, and even if the same manufacturer performs a large-scale engineering case, more than hundreds of equipment cannot be synchronously controlled and operated. Meanwhile, when the intelligent devices of most manufacturers are abnormal in the cloud server or the gateway central control is abnormal, the whole intelligent control system cannot realize the scene control function and even has the problem of control disorder. In addition, a large number of wired or traditional mechanical inventory devices still exist in the market, and how to intelligently modify the inventory devices without replacing new devices is one of the current problems. These problems lead to that in actual use, different devices of different manufacturers are equipped with a variety of application programs, so that user-defined intelligent scene linkage, regional group control, intelligent induction control and the like of the devices cannot be realized, and user experience is limited.

Accordingly, there is a need to develop a wireless control system based on the internet of things to address the above deficiencies and solve or mitigate one or more of the problems.

[ Utility model ] content

In view of the above, the present invention provides an intelligent wireless control system based on the internet of things, which can implement local control, mobile application control, PC application control and WEB application control by using convenient control methods such as wireless remote control, timing or auto-induction control, remote control, intelligent scene control, regional group control, etc., so that traditional devices of different manufacturers can be conveniently and quickly brought into a wireless intelligent control system management platform.

Furthermore, the wireless intelligent control system comprises a gateway central control subsystem, an intelligent lighting subsystem, an energy monitoring management subsystem, an intelligent curtain subsystem, an intelligent security subsystem, an intelligent air conditioning subsystem, an area group control and intelligent scene control subsystem, a wireless transmission subsystem and a cloud server platform, wherein the cloud server platform is connected with the gateway central control subsystem, and the gateway central control subsystem is connected with the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem and the area group control and scene control subsystem through the wireless transmission subsystem.

The gateway central control subsystem comprises an indicator light unit, a CPU (central processing unit) main control unit and a wireless transmission unit, wherein the indicator light unit is controlled by the CPU main control unit according to the working state of the system, the wireless transmission unit is connected with the cloud server platform and is connected with the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the area group and the intelligent scene control subsystem, the CPU main control unit is responsible for task scheduling, intelligently coordinates and controls each unit and system, ensures stable transmission of uplink and downlink data, and ensures that each system device can be controlled in real time and the working state is uploaded to the cloud server platform in real time.

The wireless transmission unit comprises a ZIGBEE wireless module, a WIFI wireless module and an Internet of things card communication module, and the ZIGBEE wireless module is used for carrying out data transmission interaction with the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air-conditioning subsystem, the regional group and the intelligent scene control subsystem; the WIFI wireless module and the Internet of things card communication module are connected with the cloud server platform.

The CPU main control unit is connected with the ZIGBEE wireless module to establish connection, and is connected with the WIFI wireless module or the IOT card communication module, and the WIFI wireless module or the IOT card communication module is also connected with a cloud server platform through the ZIGBEE wireless module.

The intelligent lighting subsystem comprises an intelligent switch type control module, an intelligent dimming color-mixing LED driving power supply, an intelligent RGBW lamp belt LED driving power supply, ZIGBEE wireless modules are embedded in all equipment contained in the intelligent lighting subsystem, MESH self-networking is formed between the equipment and the intelligent lighting subsystem through the ZIGBEE wireless modules, and the intelligent lighting subsystem and the gateway central control subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the area group control subsystem and the intelligent scene control subsystem form a wireless local area network.

Energy monitoring management subsystem includes smart jack control module group, thing networking little disconnected switch, RS485 commentaries on classics ZIGBEE wireless control module group, the RS485 ammeter of 07 conventions, the intelligent light-adjusting module of function is detected to the electric quantity, RS485 commentaries on classics ZIGBEE wireless control module group changes the traditional wired MODBUS agreement communication's equipment data into wireless ZIGBEE data and brings it into energy monitoring management subsystem, the equal embedded ZIGBEE wireless module of all equipment that energy monitoring management subsystem contains constitutes MESH from the network deployment between equipment and the equipment by ZIGBEE wireless module and will energy monitoring management system with gateway well accuse subsystem, intelligent lighting subsystem, intelligent curtain subsystem, intelligent security subsystem, intelligent air conditioning subsystem, regional group control and intelligent scene control subsystem constitute wireless LAN.

Intelligence (window) curtain subsystem includes intelligent (window) curtain control module group, intelligent motor control module group, intelligent entrance guard control module group, intelligent dry contact control module group, intelligence dry contact control module group changes traditional dry contact control mode's equipment into ZIGBEE wireless control mode and brings it into intelligent (window) curtain subsystem, the equal embedded ZIGBEE wireless module of all equipment that intelligent (window) curtain subsystem includes, constitute MESH from the network deployment and will between equipment and the equipment by ZIGBEE wireless module intelligent (window) curtain subsystem with the gateway in control subsystem, intelligent lighting subsystem, energy monitoring management subsystem, intelligent security subsystem, intelligent air conditioner subsystem, regional group control and intelligent scene control subsystem constitute wireless local area network.

The intelligent security subsystem comprises an intelligent human body sensor, an intelligent smoke sensor, an intelligent water immersion detector, an intelligent acousto-optic alarm and an intelligent security control module, the intelligent security control module converts traditional security products outputting a switching value alarm mode into wireless intelligent security equipment and brings the wireless intelligent security equipment into the intelligent security subsystem, ZIGBEE wireless modules are embedded in all equipment included in the intelligent security subsystem, MESH self-networking is formed between the equipment and the ZIGBEE wireless modules, and the intelligent security subsystem and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent air conditioning subsystem, the regional group control and the intelligent scene control subsystem form a wireless local area network.

The intelligent air-conditioning subsystem comprises an intelligent temperature and humidity sensor, an intelligent air quality detector, an intelligent infrared air-conditioning controller, an intelligent three-speed switch temperature control panel and an RS 485-to-ZIGBEE wireless control module, the RS 485-to-ZIGBEE wireless control module converts traditional wired MODBUS protocol communication equipment into wireless ZIGBEE intelligent control and brings the equipment into the intelligent air-conditioning subsystem, ZIGBEE wireless modules are embedded in all equipment included in the intelligent air-conditioning subsystem, MESH self-networking is formed between the equipment and the equipment by the ZIGBEE wireless modules, and the intelligent air-conditioning subsystem and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the area group control subsystem and the intelligent scene control subsystem form a wireless local area network.

The area group control and intelligent scene control subsystem comprises an intelligent scene panel, a mobile terminal application program, a computer terminal application program and a WEB terminal application program, wherein a ZIGBEE wireless module is embedded in the intelligent scene panel, a MESH self-networking is formed between equipment by the ZIGBEE wireless module, and a wireless local area network is formed by the intelligent scene panel and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent security subsystem and the intelligent air-conditioning subsystem.

Compared with the prior art, the utility model can obtain the following technical effects:

the utility model combines different types of equipment of different manufacturers into an MESH network system in a wireless mode through a wireless communication technology based on the Internet of things and a private communication protocol. The gateway central control subsystem is connected with the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem and the regional group control and scene control subsystem through the wireless transmission subsystem, so that convenient control modes such as wireless remote control, timing or automatic induction control, remote control, intelligent scene control, regional group control and the like are provided, and local control, remote control of a mobile terminal application program, local or remote control of a PC terminal application program and cloud control of a WEB terminal application program are realized. Each subsystem is independent and does not influence each other relatively, and even if the subsystems are disconnected with the cloud server, local intelligent control, regional group control, scene control, induction control and strategy control can still be realized among the subsystems through the self-owned MESH network system. The local scene control function and strategy control function data synchronize the database with the cloud server in real time, and even if the gateway is powered off, equipment of each subsystem can still realize local area group control, intelligent scene panel control and intelligent induction linkage scene control equipment through an own wireless MESH network system. The traditional equipment of different manufacturers can be conveniently and quickly brought into the wireless intelligent control system management platform through simple intelligent butt joint, so that various electrical equipment is diversified, humanized and intelligent in control mode, and can play a role in reducing energy consumption and improving economic and social benefits. A set of stable wireless intelligent control system platform based on the Internet of things control technology is formed.

Of course, it is not necessary for any one product in which the utility model is practiced to achieve all of the above-described technical effects simultaneously.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a block diagram of a wireless intelligent control system provided by one embodiment of the present invention;

fig. 2 is a block diagram of a gateway central control subsystem according to an embodiment of the present invention;

FIG. 3 is a product classification diagram corresponding to the wireless intelligent control system according to an embodiment of the present invention;

fig. 4 is a diagram of compatible devices of a wireless intelligent control system according to an embodiment of the present invention.

[ detailed description ] embodiments

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in the description of the utility model and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

As shown in fig. 1, the utility model provides a wireless intelligent control system based on the internet of things, which comprises a cloud server platform, a gateway central control subsystem, an intelligent lighting subsystem, an energy monitoring management subsystem, an intelligent curtain subsystem, an intelligent security subsystem, an intelligent air conditioning subsystem, a regional group control and intelligent scene control subsystem, a wireless transmission subsystem, a mobile terminal application program, a WEB terminal application program and a PC terminal application program, wherein the cloud server platform is connected with the gateway central control subsystem, and the gateway central control subsystem is connected with the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the regional group control and the intelligent scene control subsystem through a wireless transmission unit.

The gateway central control subsystem comprises an indicator light unit, a CPU (central processing unit) main control unit and a wireless transmission unit, wherein the indicator light unit is controlled by the CPU main control unit according to the working state of the system, the wireless transmission unit is responsible for establishing connection with the cloud server platform and is responsible for establishing connection with an intelligent lighting subsystem, an energy monitoring and management subsystem, an intelligent curtain subsystem, an intelligent security subsystem, an intelligent air conditioning subsystem, a region group and an intelligent scene control subsystem, the CPU main control unit is responsible for task scheduling, intelligently and coordinately controlling each unit and system, ensuring stable transmission of uplink and downlink data, and ensuring that each system device can be controlled in real time and the working state is uploaded to the cloud server platform in real time.

The wireless transmission unit comprises a ZIGBEE wireless module, a WIFI wireless module and an Internet of things card communication module, wherein the ZIGBEE wireless module is responsible for carrying out data transmission interaction with an intelligent lighting subsystem, an energy monitoring and management subsystem, an intelligent curtain subsystem, an intelligent security subsystem, an intelligent air-conditioning subsystem, a regional group and an intelligent scene control subsystem; the WIFI wireless module and the Internet of things card communication module are responsible for establishing connection with the cloud server platform.

The CPU main control unit is responsible for task scheduling, processing data received by the ZIGBEE wireless module and transmitting the data to the WIFI wireless module or the IOT card communication module according to system task requirements, processing the data received by the WIFI wireless module or the IOT card communication module and transmitted to the ZIGBEE wireless module according to the system task requirements, and intelligently identifying the networking state of the communication between the WIFI wireless module and the IOT card, intelligently switching networking channels and avoiding flow waste.

The intelligent lighting subsystem comprises an intelligent switch type control module, an intelligent dimming color-mixing LED driving power supply, an intelligent RGBW lamp belt LED driving power supply, a ZIGBEE wireless module is embedded in all equipment contained in the intelligent lighting subsystem, an MESH self-networking network is formed between the equipment and the ZIGBEE wireless module, and the intelligent lighting subsystem and the gateway central control subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the regional group control subsystem and the intelligent scene control subsystem form a wireless local area network.

The energy monitoring and management subsystem comprises an intelligent socket control module, an Internet of things micro-break switch, an RS 485-ZIGBEE wireless control module, an RS485 ammeter with a 07 protocol, and an intelligent dimming control module with an electric quantity detection function, wherein the RS 485-ZIGBEE wireless control module is used for converting traditional wired MODBUS protocol communication equipment data into wireless ZIGBEE data and bringing the wireless ZIGBEE data into the energy monitoring and management subsystem, ZIGBEE wireless modules are embedded in all equipment contained in the energy monitoring and management subsystem, MESH self-networking is formed between the equipment and the equipment by the ZIGBEE wireless modules, and the energy monitoring and management system and the gateway central control subsystem, the intelligent lighting subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the regional group control subsystem and the intelligent scene control subsystem form a wireless local area network.

Intelligence (window) curtain subsystem include intelligent (window) curtain control module group, intelligent motor control module group, intelligent entrance guard control module group, intelligent dry contact control module group, intelligence dry contact control module group is used for turning into the equipment of traditional dry contact control mode ZIGBEE wireless control mode and bringing it into intelligent (window) curtain subsystem, the equal embedded ZIGBEE wireless module of all equipment that intelligent (window) curtain subsystem includes constitutes MESH from the network deployment and will between equipment and the equipment by ZIGBEE wireless module intelligent (window) curtain subsystem with the gateway in control subsystem, intelligent lighting subsystem, energy monitoring management subsystem, intelligent security subsystem, intelligent air conditioning subsystem, regional group control and intelligent scene control subsystem constitute wireless local area network.

The intelligent security subsystem include intelligent human sensor, intelligent smoke transducer, intelligent water logging detector, intelligent audible-visual annunciator, intelligent security control module group is used for turning into wireless intelligent security equipment and bringing it into with the traditional security product of output switching value alarm mode intelligent security subsystem, the equal embedded ZIGBEE wireless module of all equipment that intelligent security subsystem includes, constitute MESH from the network deployment and will between equipment by ZIGBEE wireless module intelligent security subsystem with the gateway in control subsystem, intelligent lighting subsystem, energy monitoring management subsystem, intelligent (window) curtain subsystem, intelligent air conditioning subsystem, regional group control and intelligent scene control subsystem constitute wireless local area network.

The intelligent air-conditioning subsystem comprises an intelligent temperature and humidity sensor, an intelligent air quality detector, an intelligent infrared air-conditioning controller, an intelligent three-speed switch temperature control panel and an RS 485-to-ZIGBEE wireless control module, wherein the RS 485-to-ZIGBEE wireless control module is used for converting traditional wired MODBUS protocol communication equipment into wireless ZIGBEE intelligent control and bringing the wireless ZIGBEE intelligent control into the intelligent air-conditioning subsystem, ZIGBEE wireless modules are embedded in all equipment included in the intelligent air-conditioning subsystem, MESH self-networking is formed between the equipment and the equipment by the ZIGBEE wireless modules, and the intelligent air-conditioning subsystem and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the regional group control subsystem and the intelligent scene control subsystem form a wireless local area network.

The area group control and intelligent scene control subsystem comprises an intelligent scene panel, a mobile terminal application program, a computer terminal application program and a WEB terminal application program, wherein a ZIGBEE wireless module is embedded in the intelligent scene panel, a MESH self-networking is formed between equipment by the ZIGBEE wireless module, and a wireless local area network is formed by the intelligent scene panel and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent security subsystem and the intelligent air-conditioning subsystem.

The utility model focuses on how to integrate all traditional household products in the weak current industry and the strong current industry into a wireless intelligent control system for operation, and in order to make the hardware connection relationship between each component more clear, all the technologies which are not known in the field of the utility model are explained as follows:

the ZigBee wireless module is a communication module of a radio frequency chip with a ZigBee protocol, and the RS485 to ZIGBEE wireless control module is a conversion chip with the RS485 protocol and a protocol conversion module of the radio frequency chip with the ZIGBEE protocol.

The WIFI wireless module in the gateway central control subsystem is a WIFI chip with a WIFI protocol function, and the IOT card communication module is a communication module with an LTE module function and supports 2G/3G/4G communication of China Mobile, China telecom and China Unicom.

The specific embodiment of the utility model is as follows:

1. the gateway central control subsystem is an important device for connecting each subsystem with the cloud server platform and interactively processing uplink and downlink data streams. The intelligent wireless control system has the functions of starting and stopping, calculating the terminal at the edge and intelligently processing data.

2. The devices of each subsystem are connected to the cloud server platform through the gateway central control subsystem, and a user can check various sensor parameters and device running states at any time and any place through a mobile terminal application program, a PC terminal application program or a WEB terminal application program, and remotely control various devices such as switches, lights, air conditioners, curtains, electric doors and the like in real time. Meanwhile, all subsystems are relatively independent and do not influence each other, and even if the gateway central control system is disconnected with the cloud server, the subsystems can still realize local intelligent control, area group control, intelligent scene control, induction control and edge calculation strategy control through an own wireless MESH network system.

3. The local scene control function and strategy control function data synchronize databases with the cloud server in real time, and even if the gateway is powered off, equipment of each subsystem can still realize local area group control, intelligent scene panel control and intelligent induction linkage scene control equipment through the own wireless MESH network system.

4. Therefore, the wireless intelligent control system based on the Internet of things adopts the current mainstream ZIGBEE wireless technology protocol to combine the equipment of each system into a stable wireless MESH network system, and the whole system is designed into a private communication protocol based on the communication protocol of the nano-sea wireless intelligent control system. The core of the private communication protocol lies in decentralization, namely ensuring that each subsystem is relatively independent and does not influence each other and can mutually perform scene linkage execution induction control, intelligent scene control, strategy control and the like.

As shown in fig. 2-4:

gateway central control subsystem communication protocol data packet format (16 system)

The length of the data packet is the total length of the data packet, including a header mark and a tail mark, and the maximum length does not exceed 32

Data packet validation sum (data packet length + device type number + device ID number + device port number + command word + command parameter or response parameter) takes eight lower bits

Note that mac is globally unique mac address code of the device

Following packet format consistency

Such as: obtaining all device return values of current connection

Intelligent lighting subsystem

The intelligent lighting system is matched with a human body sensor, a luminance sensor, sunrise and sunset time with different longitudes and latitudes and the like, so that working days and holidays can be distinguished, different intelligent scene strategies are executed in different time periods to control the light on, off or brightness adjustment in different areas, the best lighting effect is achieved in an intelligent self-adaptive adjustment mode, the problem that urban electric power energy is excessively wasted by useless lighting lamps is solved on the premise that the normal lighting requirements of users are guaranteed, and a huge promoting effect can be achieved for energy conservation and green building creation. The intelligent lighting system is not only energy-saving and environment-friendly, but also can change the life style and habit of people, and finds brand-new reasonable light environment experience and application for lighting.

The lighting system of the utility model is characterized in that:

the lamplight can be controlled in a local control mode or a remote control mode through a traditional switch, a mobile phone, a tablet, a PC (personal computer) terminal, a touch screen and the like;

the lamplight for controlling any area group at fixed time can be set;

the light brightness, the color temperature and the color can be controlled, the diversity and the interestingness of the light effect are increased, and the requirements of people on natural light and color are met;

all lights can be turned off by one key, and can also be turned off remotely or locally at regular time, so that the waste of power energy caused by forgetting to turn off and missing turn off is avoided;

the intelligent lamplight adjusting device can be matched with a human body infrared sensor setting strategy to realize that people or nobody intelligently executes different scene strategies to reasonably adjust lamplight on different dates and different time periods, so that unnecessary waste of electric power energy is avoided.

Such as: obtaining the brightness return value of the current dimmable device lamp

Energy monitoring sub-management system

The energy monitoring and energy saving management system can detect and count the electricity using condition in real time. Determining whether the electricity is normal or not according to the electricity consumption trend of each month; the safe power utilization is realized, the power utilization condition can be reasonably adjusted according to the power consumption, and the energy and the power are saved.

The time delay switch task is timed, so that the energy is saved and the environment is protected; the regional regulation and control of air conditioner, drinking water machine, humidifier, purifier and other equipment.

An intelligent socket can be installed to control the one-key power-off of equipment such as a water dispenser, a tea tray lamp, a refrigerator and the like.

The scene mode can be set, and the window, the humidifier, the air conditioner and other equipment can be automatically opened and closed according to the feedback of the installed sensor.

Such as: voltage and power correction

Intelligent curtain subsystem

The subsystem functional characteristics of the electric curtain of the utility model:

the traditional manual curtain pulling is realized through a traditional local control mode or remote control of a switch, a mobile phone, a tablet, a PC (personal computer) end, a touch screen and the like;

various individual scene modes can be set, the opening and closing of a plurality of curtains can be controlled by one key at the same time, and linkage scene control can be carried out with a lighting system, a security system and an audio-visual system;

can cooperate illuminance sensor, through illuminance sensor response illumination intensity, realize the automatically regulated of (window) curtain degree of opening and shutting according to illuminance, realize the intelligent control of (window) curtain, avoid the vexation of frequent switch (window) curtain when enjoying the French window and bring the beauty, the perfect integration of best science and technology and beautiful family life between opening and shutting at one time.

Such as: setting the current opening and closing state of the curtain device

Intelligent security subsystem

And connecting the intelligent security control module with various third-party traditional sensors to form a security alarm system.

Such as: human infrared sensor, smoke transducer, water logging detector, audible and visual alarm, security protection equipment such as glass cracker, nobody in the family, whole house cloth is prevented the state, and the security is higher

The security alarm system can efficiently manage safety problems. According to sensor equipment such as human body induction, smoke alarm, harmful gas alarm, accurate judgement rapid processing proruption problem avoids causing secondary loss.

When abnormal conditions occur, the audible and visual alarm gives an alarm immediately, other equipment is linked according to a set scene linkage strategy, such as turning on a light or cutting off a power supply, and the like, and the cloud server platform immediately pushes reminding information to the mobile terminal, the PC terminal and the WEB terminal.

Note: the length of the data packet is the total length of the data packet and comprises a packet head mark and a packet tail mark

The packet checksum (packet length + device type number + device ID number + device port number + command word + command parameter or acknowledgement parameter) takes the lower eight bits such as: combustible gas detector reports current state

Such as: setting the current water level probe defense level

Intelligent air conditioner subsystem

The system is provided with devices such as a temperature and humidity sensor and an air quality detector to form an environment monitoring system, the air quality detector can be used for rapidly and efficiently monitoring VOC (volatile organic compounds) gases such as PM2.5, formaldehyde, methylbenzene, oil smoke and gas floating in the air of a house in real time, the air state is clear at a glance in indoor and outdoor weather, and when the air quality is abnormal, the linkage device is used for opening a fresh air system to purify the air, so that the physical and mental health of the house is guaranteed.

Temperature and humidity sensor, automatic monitoring humiture can linking device regulation air conditioner, equipment such as humidifier when the humiture reaches the default, guarantees that indoor humiture is in reasonable range, builds indoor suitable environment of living.

Such as: querying current state of air conditioner

Area group control and intelligent scene control subsystem

The equipment of each subsystem such as intelligence illumination, intelligent (window) curtain, intelligent air conditioner, intelligent security protection can freely form regional group or set up the scene linkage, realizes regional group control, intelligent scene control, for example sets up "01" scene number for the mode of leaving home: and when leaving home, clicking the leaving-home mode. When an air conditioner, light, a television and the like in a home are turned off, a defense state of security equipment, an infrared detector, a monitoring camera and other security equipment are started.

Note: scene number is one byte of data such as: obtaining return values of all devices in current scene

The utility model is composed of: the intelligent energy monitoring and controlling system comprises a gateway central control subsystem, an intelligent lighting subsystem, an energy monitoring and managing subsystem, an intelligent security subsystem, an intelligent curtain subsystem, an intelligent air conditioning subsystem, a regional group control and intelligent scene control subsystem, a cloud server platform, a mobile terminal application program, a PC terminal application program and a WEB terminal application program. The whole set of system is based on the wireless communication technology of the Internet of things and the private communication protocol of the Nahai wireless intelligent control system, and different types of equipment of different manufacturers form an MESH network system in a wireless mode. The gateway central control subsystem is connected with the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem and the regional group control and scene control subsystem through the wireless transmission subsystem, so that convenient control modes such as wireless remote control, timing or automatic induction control, remote control, intelligent scene control, regional group control and the like are provided, and local control, remote control of a mobile terminal application program, local or remote control of a PC terminal application program and cloud control of a WEB terminal application program are realized. Each subsystem is independent and does not influence each other relatively, and even if the subsystems are disconnected with the cloud server, local intelligent control, regional group control, scene control, induction control and intelligent edge strategy control can still be realized among the subsystems through the self-owned MESH network system. The local scene control function and strategy control function data synchronize databases with the cloud server in real time, and even if the gateway is powered off, equipment of each subsystem can still realize local area group control, intelligent scene panel control and intelligent induction linkage scene control equipment through the own wireless MESH network system. The traditional equipment of different manufacturers can be conveniently and quickly brought into the wireless intelligent control system management platform through simple intelligent butt joint, so that various electrical equipment is diversified, humanized and intelligent in control mode, and can play a role in reducing energy consumption and improving economic and social benefits.

The wireless control system based on the internet of things provided by the embodiment of the application is introduced in detail above. The above description of the embodiments is only for the purpose of helping to understand the method of the present application and its core ideas; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

As used in the specification and claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. The present specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to substantially achieve the technical effect. The description which follows is a preferred embodiment of the present application, but is made for the purpose of illustrating the general principles of the application and not for the purpose of limiting the scope of the application. The protection scope of the present application shall be subject to the definitions of the appended claims.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article of commerce or system in which the element is comprised.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

The foregoing description shows and describes several preferred embodiments of the present application, but as aforementioned, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the application as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.

Claims (10)

1. The utility model provides a wireless intelligent control system based on thing networking, its characterized in that, wireless intelligent control system includes in the gateway accuse subsystem, intelligent illumination subsystem, energy monitoring management subsystem, intelligent (window) curtain subsystem, intelligent security subsystem, intelligent air conditioner subsystem, regional group control and intelligent scene control subsystem, wireless transmission subsystem and high in the clouds server platform, control subsystem in the gateway is connected to high in the clouds server platform, control subsystem passes through wireless transmission subsystem and connects intelligent illumination subsystem, energy monitoring management subsystem, intelligent (window) curtain subsystem, intelligent security subsystem, intelligent air conditioner subsystem and intelligent scene control subsystem in the gateway.

2. The wireless intelligent control system according to claim 1, wherein the gateway central control subsystem comprises an indicator light unit, a CPU main control unit and a wireless transmission unit, the indicator light unit is controlled by the CPU main control unit according to the working state of the system, the wireless transmission unit is connected with the cloud server platform and is connected with the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the area group and the intelligent scene control subsystem, the CPU main control unit is responsible for task scheduling, intelligently coordinates and controls the units and the system, ensures stable transmission of uplink and downlink data, and ensures that the system devices can be controlled in real time and the working state is uploaded to the cloud server platform in real time.

3. The wireless intelligent control system of claim 2, wherein the wireless transmission unit comprises a ZIGBEE wireless module, a WIFI wireless module and an IOT card communication module, and the ZIGBEE wireless module performs data transmission interaction with an intelligent lighting subsystem, an energy monitoring and management subsystem, an intelligent curtain subsystem, an intelligent security subsystem, an intelligent air-conditioning subsystem, a regional group and an intelligent scene control subsystem; the WIFI wireless module and the Internet of things card communication module are connected with the cloud server platform.

4. The wireless intelligent control system of claim 3, wherein the CPU main control unit is connected with the ZIGBEE wireless module and is connected with the WIFI wireless module or the IOT card communication module, and the WIFI wireless module or the IOT card communication module is also connected with the cloud server platform through the ZIGBEE wireless module.

5. The wireless intelligent control system according to claim 1, wherein the intelligent lighting subsystem comprises an intelligent switch-type control module, an intelligent dimming and color-adjusting LED driving power supply, and an intelligent RGBW lamp belt LED driving power supply, a ZIGBEE wireless module is embedded in all equipment contained in the intelligent lighting subsystem, a MESH ad hoc network is formed between equipment by the ZIGBEE wireless module, and the intelligent lighting subsystem, the gateway central control subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the area group control subsystem and the intelligent scene control subsystem form a wireless local area network.

6. The wireless intelligent control system of claim 1, wherein the energy monitoring and management subsystem comprises an intelligent socket control module, an Internet of things micro-switch, an RS485 to ZIGBEE wireless control module, a 07-protocol RS485 electric meter, and an intelligent dimming module with a power detection function, the RS485 to ZIGBEE wireless control module converts traditional wired MODBUS protocol communication equipment data into wireless ZIGBEE data and brings the wireless ZIGBEE data into the energy monitoring and management subsystem, ZIGBEE wireless modules are embedded in all devices contained in the energy monitoring and management subsystem, a MESH ad hoc network is formed between the devices by the ZIGBEE wireless modules, and a wireless local area network is formed by the energy monitoring and management system, the gateway central control subsystem, the intelligent lighting subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the intelligent air-conditioning subsystem and the area group control and intelligent scene control subsystem.

7. The wireless intelligent control system according to claim 1, wherein the intelligent curtain subsystem comprises an intelligent curtain control module, an intelligent motor control module, an intelligent entrance guard control module, and an intelligent dry contact control module, the intelligent dry contact control module converts equipment in a traditional dry contact control mode into a ZIGBEE wireless control mode and brings the equipment into the intelligent curtain subsystem, all the equipment included in the intelligent curtain subsystem is embedded with a ZIGBEE wireless module, a MESH self-networking is formed between the equipment by the ZIGBEE wireless module, and the intelligent curtain subsystem and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent security subsystem, the intelligent air conditioning subsystem, the regional group control subsystem, and the intelligent scene control subsystem form a wireless local area network.

8. The wireless intelligent control system of claim 1, wherein the intelligent security subsystem comprises an intelligent human body sensor, an intelligent smoke sensor, an intelligent water immersion detector, an intelligent audible and visual alarm, and an intelligent security control module, the intelligent security control module converts the traditional security product which outputs the switching value alarming mode into wireless intelligent security equipment and brings the wireless intelligent security equipment into the intelligent security subsystem, ZIGBEE wireless modules are embedded in all devices included in the intelligent security subsystem, a MESH ad hoc network is formed among the devices through the ZIGBEE wireless modules, and a wireless local area network is formed by the intelligent security subsystem, the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring and management subsystem, the intelligent curtain subsystem, the intelligent air-conditioning subsystem and the area group control and intelligent scene control subsystem.

9. The wireless intelligent control system of claim 1, wherein the intelligent air conditioning subsystem comprises an intelligent temperature and humidity sensor, an intelligent air quality detector, an intelligent infrared air conditioning controller, an intelligent three-speed switch temperature control panel, and an RS485 conversion ZIGBEE wireless control module, the RS485 to ZIGBEE wireless control module converts traditional wired MODBUS protocol communication equipment into wireless ZIGBEE intelligent control and brings the wireless ZIGBEE intelligent control into the intelligent air-conditioning subsystem, ZIGBEE wireless modules are embedded in all equipment included by the intelligent air-conditioning subsystem, an MESH ad hoc network is formed between the equipment by the ZIGBEE wireless modules, and a wireless local area network is formed by the intelligent air-conditioning subsystem and the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem, the area group control subsystem and the intelligent scene control subsystem.

10. The wireless intelligent control system of claim 1, wherein the regional group control and intelligent scene control subsystem comprises an intelligent scene panel, a mobile terminal application program, a computer terminal application program and a WEB terminal application program, the intelligent scene panel is embedded with a ZIGBEE wireless module, the ZIGBEE wireless module forms MESH ad hoc network between devices, and the intelligent scene panel forms wireless local area network with the gateway central control subsystem, the intelligent lighting subsystem, the energy monitoring management subsystem, the intelligent curtain subsystem, the intelligent security subsystem and the intelligent air conditioning subsystem.

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